Wireless mesh standard gets boost from OLPC, open source

The proposed IEEE wireless LAN mesh specification is already getting some traction, though still over 18 months from final ratification, thanks to early experimentation by the One Laptop Per Child Foundation and a recently launched open source project.

This hands-on experience, fed back into the work of the IEEE 802.11s Task Group, has already led to several changes in the draft standard, with other changes being considered. When deployed, 802.11s will let different types and brands of wireless devices find each other, interconnect securely, and forward traffic on behalf of other mesh nodes, forging new paths automatically if nodes move or wireless links fail. WLAN deployments will be cheaper and easier, say advocates.

PacketHop earlier this month announced it will release in July the first commercial implementation of the IEEE mesh draft .

The 802.11s standard promises to cut wireless networking loose from its Ethernet cable moorings, creating what some call "opportunistic" networks. "If you think about this underlying technology to form opportunistic connections, it changes a lot of the assumptions of wireless LANs," says Robert Withrow, adviser to the CTO Common Engineering Group, part of the Office of the Chief Technology Office for Nortel Networks, which supports both the OLPC and the open80211s project, and was an early and active member of the 802.11s task group, which launched in 2004.

"A piece of information might be coming from your [mesh] neighbor," Withrow says. "Well, who is that neighbor? Does he have a right to give you information?" He also says that wireless networks are rapidly moving from people-to-people connections, to people-to-machine and machine-to-machine connections, which are vastly more numerous, dubbed by Nortel as "hyperconnectivity." "It's difficult to do this in a hierarchical way," he says.

The 802.11 standard does specify what's called an ad hoc mode, which lets, for example, wireless laptops connect with each other. But this requires every participating node to be connected directly to every other node. An 802.11s mesh doesn't have this limitation. Proprietary mesh protocols abound, mostly for outdoor wireless networks, though Ruckus Wireless and Aerohive recently unveiled indoor mesh gear. But these protocols are for mesh infrastructures, not clients, and because they're proprietary, they don't interoperate.

OLPC embraces mesh

The OLPC began studying mesh benefits in 2006. Mesh would let the group's inexpensive Linux-based laptops create their own wireless network and communicate, without the need for access points or intermediate servers, as well as share whatever wide-area connection, such as a satellite link, that might be available for a village school in Cambodia, Brazil, or Haiti.

Using the nascent 802.11s draft was a natural choice, says Michail Bletsas, chief connectivity officer for OLPC. The 802.11s mesh works at Layer 2, so no changes would have to be made to the TCP/IP network stack or other higher layer applications. One corollary benefit of that, he saw, was that the 802.11s code could be run on the 802.11 network adapter module, with a system-on-a-chip having its own memory and small CPU. That meant the OLPC laptop could suspend or shut down its main CPU to save power, but trickle some juice to keep the radio alive as a mesh node, forwarding traffic on behalf of other mesh participants.

The screen was particularly good. It is bright and visible from most angles, however heat is an issue, particularly around the Windows button on the front, and on the back where the battery housing is located.

My first impression after unboxing the Q702 is that it is a nice looking unit. Styling is somewhat minimalist but very effective. The tablet part, once detached, has a nice weight, and no buttons or switches are located in awkward or intrusive positions.

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